I. Cambero scite author profile

The generation and manipulation of microbubbles by means of temperature gradients induced by low power laser radiation is presented. A laser beam (λ = 1064 nm) is divided into two equal parts and coupled to two multimode optical fibers. The opposite ends of each fiber are aligned and separated a distance D within an ethanol solution. Previously, silver nanoparticles were photo deposited on the optical fibers ends. Light absorption at the nanoparticles produces a thermal gradient capable of generating a microbubble at the optical fibers end in non-absorbent liquids. The theoretical and experimental studies carried out showed that by switching the thermal gradients, it is possible to generate forces in opposite directions, causing the migration of microbubbles from one fiber optic tip to another. Marangoni force induced by surface tension gradients in the bubble wall is the driving force behind the manipulation of microbubbles. We estimated a maximum Marangoni force of 400nN for a microbubble with a radius of 110 μm.

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Adaptive neural network control of chaos in permanent magnet synchronous motor

Aguilar-Mejía¹,

Tapia‐Olvera²,

Valderrabano‐Gonzalez³

et al. 2015

Intelligent Automation & Soft Computing

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Analysis on Integrated Management of the Quality, Environment and Safety on the Industrial Projects

García-Sanz-Calcedo

González

López

et al. 2015

Procedia Engineering

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Tool Wear Estimation for Different Workpiece Materials Using the Same Monitoring System

Salgado

Cambero

Olivenza

et al. 2013

Procedia Engineering

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I. Cambero

In-process surface roughness prediction system using cutting vibrations in turning

Marangoni force-driven manipulation of photothermally-induced microbubbles

Adaptive neural network control of chaos in permanent magnet synchronous motor

Analysis on Integrated Management of the Quality, Environment and Safety on the Industrial Projects

Tool Wear Estimation for Different Workpiece Materials Using the Same Monitoring System

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